RU2007552C1 - Method of seam hydraulic break and device for its realization - Google Patents

Abstract

FIELD: oil industry. SUBSTANCE: method of seam hydraulic break is carried out by running perforator on tubing string with perforation holes made in vertical plane, by azimuthal orientation of perforator tubing string, by execution of slit perforation of well in position of perforator tubing string oriented azimuthally and stabilized against turning, by flushing of well, by lifting of perforator on tubing string, by running perforator on tubing string with packer and anchor, by pumping of break fluid and of sand-carrying fluid under pressure. Device to realize this method includes perforator on tubing string with perforated holes located in vertical plane, anchor unit positioned above perforator. Anchor unit is composed of body, pistons put into body perpendicular to its axis. Stopping members lengthened along axis of body are placed on ends of pistons. Inner surface of perforator tubing string has mark. EFFECT: execution of hydraulic break of seam in direction oriented azimuthally. 2 cl, 2 dwg

Description

 The invention relates to the oil industry and can be used in the development of oil fields using hydraulic fracturing.

 A known method of hydraulic fracturing by lowering into the well a string of tubing with a perforator, perforating, flushing a well, lifting a string of tubing with a perforator, lowering a string of tubing with a packer and anchor, injecting fracturing fluid under pressure and sand carrier fluids [1].

 The method does not allow for slot perforation and hydraulic fracturing in the azimuthally oriented direction of crack development.

 The closest to the invention in technical essence and the achieved result is a method of hydraulic fracturing by lowering into the well of a string of tubing with a perforator having perforations located in the same plane, conducting slotted perforation of the well, flushing the well, lifting the tubing string with perforator, descent of the tubing string with a packer and an anchor, injection under pressure of the fracturing fluid and sand carrier fluid [2].

 The known method allows for the opening of formations with vertical slots, but does not allow for slot perforation in an azimuthally oriented direction.

 A device for initiating hydraulic fracturing, including a string of tubing and a perforator.

 The device does not allow slot perforation in an azimuthally oriented direction.

 Closest to the invention in technical essence and the achieved result is a device for initiating hydraulic fracturing, including a tubing string and a perforator with perforations located in the same plane.

 The known device allows for slotted perforation, but does not allow it to be carried out in an azimuthally oriented direction.

 The aim of the invention is the implementation of hydraulic fracturing in an azimuthally oriented direction.

 This is achieved by the fact that in the method of hydraulic fracturing by lowering into the well a string of tubing with a perforator having perforations located in the same vertical plane, conducting slotted perforation of the well, flushing the well, lifting the tubing string with a perforator, lowering the string tubing with a packer and an anchor, injection under pressure of the fracturing fluid and sand carrier fluid according to the invention before conducting slotted perforation is carried out azimuthally w orientation string of tubing with a puncher, a column is stabilized tubing against rotation, is carried out in a slit perforation hole azimuthally oriented and stabilized against rotation position of the column of tubing.

 This goal is also achieved by the fact that the device for azimuthally directed initiation of hydraulic fracturing, including a tubing string and a perforator with perforations located in one vertical plane, is additionally equipped with an azimuthal armature located above the perforator on the tubing string, consisting of a housing placed in the housing perpendicular to its axis of the pistons, at the ends of which there are slides, elongated along the axis of the housing.

The essential features of the object of the invention "method" are the following:
1) the descent into the well of the tubing string (tubing) with a perforator having perforations located in one vertical plane.

2) conducting slotted perforation;
3) flushing the well;
4) lifting the tubing string with a perforator;
5) descent of the tubing string with a packer and an anchor;
6) injection under pressure of the fracturing fluid and sand carrier fluid;
7) the implementation of the azimuthal orientation of the tubing string with a perforator;
8) stabilization of the tubing string from rotation;
9) conducting slotted perforation of the well in an azimuthally oriented and stabilized against rotation position of the tubing string. Signs 1-6 are common with the prototype, signs 7-9 are the hallmarks of the invention.

The essential features of the subject matter invention are as follows:
1) tubing string;
2) a perforator with perforations located in one vertical plane;
3) azimuthal anchor;
4) placement of the azimuthal anchor above the perforator on the tubing string;
nodes of the azimuthal anchor, including:
5) case;
6) pistons;
7) slide;
8) the placement of the pistons perpendicular to the axis of the housing;
9) placement of the slide at the ends of the pistons along the axis of the housing.

 Signs 1 and 2 are common with the prototype, signs 3-9 are the hallmarks of the invention.

 SUMMARY OF THE INVENTION The objective of the invention was to carry out hydraulic fracturing in a certain azimuthally oriented direction. Existing methods and devices are capable of initiating, i.e., marking the beginning of a rupture crack.

 This is achieved by slotted perforation of the well at the bottom. At the same time, all openings are closed on a sandblasting punch, except for two rows of holes located in a vertical plane and in diametrically opposite directions. Raising the tubing string during punching, it is ensured that diametrically opposite vertical rows of perforator holes cut a slotted recess on two opposite walls of the well. These cracks serve as the beginning (initiate) hydraulic fractures.

 However, such slotted perforation without its azimuthal orientation does not provide the necessary direction for the development of a fracture crack. In addition, at the moment of lifting the tubing string and at the same time sandblasting, it is possible and there is a rotation, displacement of the tubing string with a perforator, and, consequently, a violation of the direction of cutting the gap, reducing its depth, etc.

 The azimuthal orientation of the tubing string with a perforator and conducting slotted perforation in an azimuthally oriented and stable against rotation position allows cutting gaps in strict accordance with the specified direction of the development of hydraulic fracturing.

 The device for stabilization from rotation is an azimuthal anchor, the slide of which abuts against the casing of the well and prevents the possibility of a turn, while at the same time creating the possibility of vertical movement of the tubing string.

 The drawing shows a device for azimuthally directed initiation of hydraulic fracturing; in FIG. 2 - the same on the tubing string.

 The device includes a tubing string 1 and a perforator 2 with perforation holes 3 and an azimuthal anchor 4, which consists of a housing 5, pistons 6 and a slide 7. The entire device is placed in the borehole 8. Above the azimuthal armature inside the tubing string, mark 9 is shown, located in the same plane with the perforations of the punch. The label is an element of the device for azimuthal orientation of the tubing string.

 The device operates as follows. Install a punch 2 on the lower end of the tubing string 1 with perforation holes 3 located in the same vertical plane with the direction of the mark 9. Above the punch 2 on the tubing string 1, an azimuthal anchor 4 is placed, pistons 5 with slides 6 of which are installed in the housing before lowering 4. Lower the tubing string with a perforator 2, an azimuthal anchor 4 and a mark 9 into the well 3 at the bottom of the well 8 and deploy the tubing string 1 to the required angle to the specified direction. A mixture of perforation is pumped through the tubing string 1. Moreover, as a result of the fact that the pressure inside the tubing string 1 is greater than in the annulus, the pistons 6 of the azimuthal armature 4 move in the housing 5 against the stop by the slide 7 into the walls of the well 8. The slide 7 prevents rotation of the tubing string 1, but allows vertical movement of it . Upon reaching a predetermined speed of circulation of the mixture for perforation in the well 8, a ball is dropped from the mouth into the tubing string 1, which sits on the saddle in a perforator (not shown). The entire volume of the mixture for perforation is directed through the nozzles of the perforations 3 to the walls of the well 8 and forms recesses. The tubing string 1 is gradually raised, while the recesses turn into a gap. Thanks to the azimuthal anchor, slit cutting occurs in an azimuthally oriented and stabilized state from turning. After cutting a gap at the interval of the reservoir, the perforation mixture is stopped and water is supplied for washing the well 8. Then, the tubing string 1 with a perforator 2 and the azimuthal armature 4 are raised and a new tubing string with a packer and a conventional armature is raised and lowered. The rupture fluid is pumped under pressure, and the packer is activated, disconnecting the rupture cavity from overlying horizons, and the anchor holding the packer from moving up. After the formation of a crack in the reservoir, sand carrier fluid is injected to fix the crack and prevent it from closing.

 A method and apparatus for azimuthal orientation of underground equipment located on a tubing string are described in another application for the invention. In the description of this application we provide only a brief diagram of the device and a description of its operation, sufficient to understand the essence of the technical solution.

 The device (Fig. 2) consists of a label 9, as well as a housing 10, arcuate springs 11, a seal 12, a weighting agent 13. One end of the arcuate spring is fixed in the groove 14 of the housing, the other in the groove 15 of the housing. The weighting agent is made in the form of a set of ring-shaped weights 16, dressed on a rod 17, screwed into an opening of the housing 18 having a thread 19. A nut 20 is screwed onto the rod in the upper part. A wireline 21 is attached to the rod.

 The arcuate springs are made of spring steel and placed in two planes in four rows. The seal is made of a plastic material such as lead, brass, aluminum. The mark is made of high strength steel.

 The device operates as follows. In the tubing string 1, a mark 9 is set in accordance with the perforation holes of the perforator. The tubing string 1 is lowered into the well. One of the rows of arcuate springs 11 is marked (marked, for example, with paint or by any mechanical means). The azimuthal direction of this series is fixed with the corresponding marking on the mouth. Inside the tubing string 1, a housing 10 with arcuate springs 11, a seal 12 and a weighting agent 13 is inserted. The arcuate springs 11 are thereby compressed, moving at one end into the groove 15 of the housing 10. The device is stabilized against rotation. The elasticity of the arcuate springs 11 ensures that the device is pressed against the tubing string 1. The presence of a groove 14 and a groove 15 ensures a constant installation angle of the arcuate springs 11 relative to the housing 10. The longitudinal movement of one end of the arcuate springs 11 is provided in the groove 15.

 The device is lowered onto cable 21. It slides inside the tubing string 1, spiraling against its walls with arcuate springs 11, which prevent the device from turning.

 At the bottom, the device is struck by the seal 12 about the mark 9, while on it a trace from the mark remains. The device is lifted up behind the logging cable 21. At the wellhead, in the direction of the mark 9 trace on the seal 12, the azimuthal orientation of the tubing string at the bottom is determined, comparing the direction of the mark trace 9 with the initial azimuthal orientation, and, therefore, the orientation of the equipment located on the bottom is determined orientation of a series of perforations. If necessary, make a turn of the tubing string from the wellhead to the required angle. The control of the correctness of the turn is carried out by repeatedly dropping to the bottom of the device, lifting it and comparing the orientation of the new track on print 12 with the given. Orientation operations are repeated until the desired accuracy is achieved.

PRI me R. For a well with a depth of 1100 m, a tubing string 1 with an inner diameter of 73 mm, a perforator 2 with two diametrically opposite vertical rows of open perforation holes 3 and the remaining plugged perforations, are used for work; azimuthal anchor 4, consisting of a housing 5 with an outer diameter of 83 mm, pistons 6 with a length of 30 mm and a diameter of 10 mm and welded to the pistons 6 of a slide 7 of 25 mm long, 10 mm wide, 4 mm thick. Above the azimuthal anchor, 1 meter inside the tubing string 1, a mark of steel 45 is welded 10 mm wide. In accordance with the direction of the mark 9, a perforator 2 with perforation holes 3 is installed. Pistons 5 with a slide 6 are installed in the housing 4. The tubing string 1 with a perforator 2, an azimuthal anchor 4 and a mark 9 is lowered into the borehole 8 until the bottom 8. Using the label 9 and the device for azimuthal orientation of the tubing string 1 determine the direction of the perforations 3 at the bottom of the well 8. The deviation from the required direction to the north is 32 ^° . Expand the tubing string 1 to 32 ^about to the north.

 A perforation mixture, which is a mixture of water and sand, is pumped through a tubing string 1 under a pressure of 20 MPa at the mouth. Under pressure inside the tubing string 1, the pistons 6 of the azimuthal armature 4 move in the housing 5 all the way to the slide 7 to the extent of the well 8. When the mixture for punching inside the tubing string is circulated, a metal ball is dropped, which passes by the mark 9, azimuthal armature 4, and rises to the saddle the valve in the perforator 2. Perforation of the well takes place 8. The tubing string 1 is gradually raised by 4 m and a slit of the corresponding height is cut. After perforation, the well is washed with countercurrent water. Then the tubing string 1 is raised and lowered a new tubing string with a packer and a conventional anchor. The fracturing fluid is injected under a pressure of 25 MPa at the mouth. The packer and anchor fire and begin to fulfill their functions. After fracturing, sand-carrier fluid is injected to prevent the crack from closing.

 Application of the hydraulic fracturing method and a device for its directed initiation will allow hydraulic fracturing with the necessary direction of crack opening. (56) Muravyov I.M. et al. Technology and technique for oil and gas production. M.: Nedra, 1971, p. 113-118, 87-89.

 Temporary instructions for the hydro-sandblasting method of perforation and opening of the reservoir. - M.: 1967, p. 12-15, 18-20.

Claims (2)

 1. The method of hydraulic fracturing, including the descent into the well of the tubing string with a perforator having perforations located in one plane, conducting slotted perforation, flushing the well, followed by lifting the tubing string with a perforator, lowering it with a packer and pumping under pressure of fracturing liquids and sand carrier, characterized in that before conducting slotted perforation, azimuthal orientation of the tubing string with a perforator is carried out, stabilizing the tubing string is rotated against rotation, and the slotted perforation of the well is carried out in an azimuthally oriented and rotationally stable tubing string position.  2. A device for hydraulic fracturing containing a column of tubing and a perforator mounted on it with perforations located in the same plane, characterized in that it is equipped with an anchor unit located above the perforator on the tubing string, made in the form of a cylindrical body and installed in it perpendicular to its axis pistons with elongated axial elements of the thrust elements at the ends, and the string of tubing is made with a mark on the inner surface and higher anchor node located in the same plane as the perforations perforator.

Images